Zonghoon Lee scite author profile

The local atomic structure of graphene oxide (GO) and reduced annealed graphene oxide (raGO) is determined via ultra‐high‐resolution transmission electron microscopy. We find that the proposed and desired return to graphene from GO is not possible through the synthetic route employed. The detailed structure of GO, previously unknown, is revealed as mottled, with few square nanometer graphitic regions separated by highly oxidized regions.

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Grain Boundary Mapping in Polycrystalline Graphene

Kim

et al. 2011

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We report direct mapping of the grains and grain boundaries (GBs) of large-area monolayer polycrystalline graphene sheets, at large (several micrometer) and single-atom length scales. Global grain and GB mapping is performed using electron diffraction in scanning transmission electron microscopy (STEM) or using dark-field imaging in conventional TEM. Additionally, we employ aberration-corrected TEM to extract direct images of the local atomic arrangements of graphene GBs, which reveal the alternating pentagon-heptagon structure along high-angle GBs. Our findings provide a readily adaptable tool for graphene GB studies.

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Substrate-Free Gas-Phase Synthesis of Graphene Sheets

et al. 2008

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We present a novel method for synthesizing graphene sheets in the gas phase using a substrate-free, atmospheric-pressure microwave plasma reactor. Graphene sheets were synthesized by passing liquid ethanol droplets into an argon plasma. The graphene sheets were characterized by transmission electron microscopy, electron energy loss spectroscopy, Raman spectroscopy, and electron diffraction. We prove that graphene can be created without three-dimensional materials or substrates and demonstrate a possible avenue to the large-scale synthesis of graphene.

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Zonghoon Lee

Determination of the Local Chemical Structure of Graphene Oxide and Reduced Graphene Oxide

Grain Boundary Mapping in Polycrystalline Graphene

Substrate-Free Gas-Phase Synthesis of Graphene Sheets

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